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基于Fokker-Planck方程的电介质材料短脉冲激光破坏机制分析 被引量:8

Mechanisms of short-pulse laser induced damage in dielectric based on Fokker-Planck equation
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摘要 基于Pokker-Planck方程,建立一个描述短脉冲激光作用下电介质材料中导带电子能量分布随时间变化的模型,用数值方法计算电子能量分布与电子数密度随时间的演化过程,根据临界等离子体密度准则得到了不同激光脉冲宽度和波长下电介质材料(以SiO2为例)的破坏阈值。结果发现,尽管激光波长通过3种途径对材料破坏阈值的确定产生影响,但三者的共同作用导致在激光波长分别为1 060,800,532 nm时材料破坏阈值随脉宽变化曲线十分接近。讨论了碰撞电离、光致电离两种机制对材料激光破坏分别所起的作用:当激光脉宽大于1 ps时,碰撞电离对材料的破坏起主要作用;当激光脉宽小于1 ps时,光致电离对破坏阈值的影响越来越明显,但是碰撞电离仍然不可忽略,碰撞电离与光致电离同时起重要作用。 Based on the Fokker-Planck equation,a theoretical computational model is established to describe the change with time of the energy distribution of conduction electrons in a dielectric material under the irradiation of short laser pulses.Using this model,the evolution of electron density in a dielectric material(taking SiO2 glass as an example) is calculated;with the critical plasma density damage criterion,the material damage thresholds are determined for various laser wavelengths and pulse durations.For laser wavelengths of 1 060,800 and 532 nm,the obtained damage threshold curves of SiO2 are rather close to each other.The role of impact ionization and photoionization in material damage is also investigated.It is found that when the laser pulse duration is greater than 1 ps,impact ionization dominates the material damage behaviour;when the laser pulse duration is shorter than 1 ps,the effect of photoionization becomes more and more notable,while with impact ionization still of significance,both types of ionization mechanisms play an important role.
作者 陈发良 李东海
机构地区 北京应用物理与计算数学研究所 中国工程物理研究院研究生部
出处 《强激光与粒子束》 EI CAS CSCD 北大核心 2011年第2期334-338,共5页 High Power Laser and Particle Beams
基金 国家高技术发展计划项目 国家973计划项目
关键词 短脉冲激光 FOKKER-PLANCK方程 碰撞电离 光致电离 破坏阈值 short-pulse laser Fokker-Planck equation impact ionization photoionization damage threshold
分类号 TN244 [电子电信—物理电子学]
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参考文献10

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二级参考文献10

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共引文献1

同被引文献62

  • 1刘莹,温诗铸.不同材料的准分子激光微细加工机制[J].机械科学与技术,2005,24(1):62-65. 被引量:4
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  • 3李平,王煜,冯国进,郑春弟,赵利,朱京涛.超短激光脉冲对硅表面微构造的研究[J].中国激光,2006,33(12):1688-1691. 被引量:38
  • 4何飞,程亚.飞秒激光微加工:激光精密加工领域的新前沿[J].中国激光,2007,34(5):595-622. 被引量:100
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引证文献8

二级引证文献66

强激光与粒子束
2011年 第2期

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